Therapeutic Relevance Of AT2 Receptors In Cardiovascular Disease And Aging
Funder
National Health and Medical Research Council
Funding Amount
$519,279.00
Summary
Pharmacological modulation of the renin angiotensin system is a cornerstone of evidence-based cardiovascular therapeutics. However, their molecular mechanisms are not entirely clear and some therapeutic options have not been utilized to their full potential. The hormone angiotensin II causes both excitatory and inhibitory cardiovascular effects via distinct binding sites. Of particular importance to contemporary society is the shift in the demographic to a more aged population. In Australia in 2 ....Pharmacological modulation of the renin angiotensin system is a cornerstone of evidence-based cardiovascular therapeutics. However, their molecular mechanisms are not entirely clear and some therapeutic options have not been utilized to their full potential. The hormone angiotensin II causes both excitatory and inhibitory cardiovascular effects via distinct binding sites. Of particular importance to contemporary society is the shift in the demographic to a more aged population. In Australia in 2002, 13% of the population (~2.5 million) were aged 65 years or over, and it has been estimated that this number will increase to 18% (~4 million) by the year 2021. While lipid status and smoking are well known risk factors for cardiovascular disease, advanced age by far confers the greatest risk for cardiovascular disease. In this context, we have found a greater role of the inhibitory angiotensin II binding site in aging that may result from breakdown products of angiotensin II having their own unique effects. This project will determine the relative role of various angiotensin products, and novel compounds that may act similarly, to improve vascular tone and reverse cardiovascular disease in the elderly, hypertensive population.Read moreRead less
Angiotensin AT2 Receptor: A Novel Target For Cardiovascular Modulation
Funder
National Health and Medical Research Council
Funding Amount
$692,040.00
Summary
The hormone, angiotensin II, circulates in the blood and increases blood pressure and thickens the heart and blood vessels, all of which contributes to high blood pressure (hypertension). Angiotensin II causes these excitatory effects by acting at particular target sites called AT1 receptors. Drugs called AT1 receptor antagonists are known to block these excitatory actions of angiotensin II at AT1 receptors. Consequently, these compounds lower blood pressure in humans because they block the ongo ....The hormone, angiotensin II, circulates in the blood and increases blood pressure and thickens the heart and blood vessels, all of which contributes to high blood pressure (hypertension). Angiotensin II causes these excitatory effects by acting at particular target sites called AT1 receptors. Drugs called AT1 receptor antagonists are known to block these excitatory actions of angiotensin II at AT1 receptors. Consequently, these compounds lower blood pressure in humans because they block the ongoing stimulatory action of angiotensin II. However, it is now thought that angiotensin II may also be able to act at another target site (AT2 receptor) to cause opposite effects, i.e. decrease blood pressure and inhibit growth effects. Therefore, this project will examine if direct stimulation of AT2 sites can alter blood flows measured in different body regions in hypertensive rats as part of their mechanism to lower blood pressure. In addition, the effects of continuous stimulation of the AT2 site will be examined in hypertensive rats which will be implanted with a radiotransmitter to measure blood pressure without interference, and afterwards, structural measurements of the heart and blood vessels will be made. Additionally, this project will investigate whether stimulation of the AT2 site also contributes to the blood pressure-lowering effect of drugs already mentioned (AT1 receptor antagonists). The rationale for this is that the hormone angiotensin II is still 'free' to act at the AT2 site, even with AT1 receptors being blocked, and lower blood pressure. These studies will determine if stimulation of AT2 sites contributes to the beneficial effects (i.e. decreased blood pressure and decreased cardiovascular growth) of AT1 receptor antagonists in the treatment of high blood pressure. More importantly, these findings may also identify a new therapeutic target site (AT2 receptor) for drug development in the treatment of cardiovascular disease.Read moreRead less
Characterisation Of The Adiponectin Receptors - AdipoR1 And AdipoR2
Funder
National Health and Medical Research Council
Funding Amount
$445,158.00
Summary
The increasing incidence of cardiometabolic disease highlights an unmet need for novel therapeutic approaches. Greater understanding of the detail governing cardiometabolic function is required to provide a foundation to construct effective strategies. We will characterise 2 novel receptors that are important in the regulation and maintenance of cardiometabolic systems, seeking to identify strategies to enhance receptor, improve cardiometabolic function and reduce disease burden.
Molecular Pharmacology Of Chemokine Receptor Signalling In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$371,770.00
Summary
Molecular pharmacology is the study of how hormones, neurotransmitters and pharmaceuticals interact with our cells through receptors, which transfer a signal across the cell membrane to change the function of that cell. Chemokine receptors are recognised to play a role in the development of many cancers. Understanding how these receptors work has enormous implications for improving our ability to develop better anti-cancer treatments with fewer side effects.
Allosteric Targeting Of The Dopamine D2 Receptor: A Novel Approach For The Treatment Of Parkinson’s Disease And Schizophrenia
Funder
National Health and Medical Research Council
Funding Amount
$469,644.00
Summary
The dopamine D2 receptor is a brain protein that is the target for drugs that are used in the treatment of schizophrenia and Parkinson's disease (PD). In both cases the current drugs have significant side effects because they simply act to switch the receptor off or on respectively. We will focus on a new class of drugs that, because they act to tune up or tune down the activity of the D2 receptor, may be a safer more effective approach to treat these disorders.
The Novel CXCR4/CCR7 Heterodimeric Chemokine Receptor Is A Key Determinant Of Breast Cancer Metastasis.
Funder
National Health and Medical Research Council
Funding Amount
$461,252.00
Summary
Novel cellular receptor has been identified that works as a switch to turn on cellular functions that are responsible for the metastatic dissemination of cancer cell to distant organs. The make-up and regulatory mechanisms of this novel receptor will be studied together with its potential utility as the marker of metastatic breast cancer.